Control devices on iOS

This guide continues from Access devices and device metadata on iOS and introduces additional examples of device control and access.

To use specific device types or traits, such as the Matter OnOffTrait used in many of the examples here, they must be imported:

import GoogleHomeSDK
import GoogleHomeTypes

Check if a trait supports a command

Use the trait-level supports function to check if a command is supported for a particular device.

For example, to check for a device's support of the On/Off trait's toggle command:

// Check if the OnOff trait supports the toggle command.
if onOffTraitTest.supportsToggleCommand {
  print("onOffTrait supports toggle command")
} else {
  print("onOffTrait does not support stateful toggle command")
}

Send a command to a device

Sending a command is similar to reading a state attribute from a trait. To turn the device on or off, use the OnOffTrait Toggle command, which is defined in the Google Home ecosystem data model as toggle(). This method changes onOff to false if it is true, or to true if it is false:

// Calling a command on a trait.
do {
  try await onOffTraitTest.toggle()
} catch let error as HomeError {
  // Code for handling the exception
}

Commands might return an exception if an issue is detected with the execution flow. As a developer, you should use a do-catch block to properly handle these exceptions, and surface detailed information to users on cases where the errors are actionable. Unhandled exceptions will stop the app runtime and can result in crashes in your app.

Alternatively, use the off() or on() commands to explicitly set the state:

do {
  try await onOffTraitTest.off()
  try await onOffTraitTest.on()
} catch let error as HomeError {
  // Code for handling the exception
}

After sending a command to change the state, once it completes you can read the state as described in Read a device state to handle it in your app.

Send a command with parameters

Some commands may use parameters, like those on the OnOffTrait or LevelControlTrait:

// Turn off the light using the DyingLight effect.
do {
  try await onOffTraitTest.offWithEffect(
    effectIdentifier: Matter.OnOffTrait.EffectIdentifierEnum.dyingLight,
    effectVariant: 0
  )
} catch let error as HomeError {
  // Code for handling the exception
}

// Change the brightness of the light to 50%
do {
  try await levelControlTraitTest.moveToLevel(
    level: UInt8(127),
    transitionTime: 0,
    optionsMask: Matter.LevelControlTrait.OptionsBitmap(),
    optionsOverride: Matter.LevelControlTrait.OptionsBitmap()
  )
} catch let error as HomeError {
  // Code for handling the exception
}

Check if a trait supports an attribute

Some devices may support a Matter trait, but not a specific attribute. For example, a Cloud-to-cloud device that was mapped to Matter may not support every Matter attribute. To handle cases like these, use the trait-level isSupported property to check if the attribute is supported for a particular device.

For example, to check for a device's support of the On/Off trait's onOff attribute:

// Check if the OnOff trait supports the onOff attribute.
if onOffTrait.attributes.$onOff.isSupported {
  print("onOffTrait supports onOff state")
} else {
  print("onOffTrait is for a command only device!")
}

Some attributes are nullable in the Matter specification or the Cloud-to-cloud smart home schema. For these attributes, you can determine whether a nil returned by the attribute is due to the device not reporting that value, or if the attribute's value actually is nil, by using isNullable in addition to isSupported:

// Check if a nullable attribute is set or is not supported.
if let deviceType = await device.types.get(OnOffLightDeviceType.self) {
  if let onOffTrait = deviceType.traits[Matter.OnOffTrait.self] {
    if onOffTrait.attributes.startUpOnOff == nil {
      if onOffTrait.attributes.$startUpOnOff.isSupported {
        print(
          "onOffTrait supports startUpOnOff and it is nil. Check the spec for the contextual meaning."
        )
      } else {
        print("onOffTrait does not support startUpOnOff!")
      }
    } else {
      print(
        "onOffTrait supports startUpOnOff and it is set to \(onOffTrait.attributes.startUpOnOff)"
      )
    }
  }
}

Update trait attributes

If you want to change the value of a given attribute, and none of the trait's commands does so, the attribute may support having its value explicitly set.

Whether the value of an attribute can be changed depends on two factors:

• Is the attribute writable?
• Can the value of the attribute change as a side effect of sending a trait command?

The reference documentation for traits and their attributes provides this information.

Therefore, the combinations of properties that dictate how an attribute's value might be changed are:

• Read-only and not affected by other commands. This means that the attribute's value does not change. For example, the currentPosition attribute of the SwitchTrait.

• Read-only and affected by other commands. This means that the only way the attribute's value can change is as the result of sending a command. For example, the currentLevel attribute of the LevelControlTrait is read-only, but its value can be mutated by commands such as moveToLevel.

• Writeable and not affected by other commands. This means that you can directly change the value of the attribute by using the update function of the trait, but there are no commands that will affect the value of the attribute. For example, the WrongCodeEntryLimit attribute of the DoorLockTrait.

• Writeable and affected by other commands. This means that you can directly change the value of the attribute by using the update function of the trait, and the attribute's value can change as the result of sending a command. For example, the occupiedCoolingSetpoint attribute of the ThermostatTrait can be written to but also updated with the setpointRaiseLower command.

Example of using the update function to change an attribute's value

This example shows how to explicitly set the value of the DoorLockTrait.wrongCodeEntryLimit attribute.

To set an attribute value, call the trait's update function and pass it an update function that sets the new value. It's a good practice to first verify that the trait supports an attribute.

For example:

if doorLockTraitTest.attributes.$wrongCodeEntryLimit.isSupported {
  let _ = try await doorLockTraitTest.update {
    $0.setWrongCodeEntryLimit(3)
  }
}